Optimizing a human papillomavirus type 16 L1-based chimaeric gene for expression in plants

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Abstract

Human papillomaviruses (HPVs) are the causative agents of cervical cancer, the fourth most prevalent cancer in women worldwide. The major capsid protein L1 self-assembles into virus-like particles (VLPs), even in the absence of the minor L2 protein: such VLPs have successfully been used as prophylactic vaccines. There remains a need, however, to develop cheaper vaccines that protect against a wider range of HPV types. The use of all or parts of the L2 minor capsid protein can potentially address this issue, as it has sequence regions conserved across several HPV types, which can elicit a wider spectrum of cross-neutralizing antibodies. Production of HPV VLPs in plants is a viable option to reduce costs; the use of a L1/L2 chimera which has previously elicited a cross-protective immune response is an option to broaden cross-protection. The objective of this study was to investigate the effect of codon optimization and of increasing the G+C content of synthetic L1/L2 genes on protein expression in plants. Additionally, we replaced varying portions of the 5' region of the L1 gene with the wild type (wt) viral sequence to determine the effect of several negative regulatory elements on expression. We showed that GC-rich genes resulted in a 10-fold increase of mRNA levels and 3-fold higher accumulation of proteins. However, the highest increase of expression was achieved with a high GC-content human codon-optimized gene, which resulted in a 100-fold increase in mRNA levels and 8- to 9-fold increase in protein levels. Changing the 5' end of the L1 gene back to its wt sequence decreased mRNA and protein expression. Our results suggest that the negative elements in the 5' end of L1 are inadvertently destroyed by changing the codon usage, which enhances protein expression.

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APA

Hitzeroth, I. I., Chabeda, A., Whitehead, M. P., Graf, M., & Rybicki, E. P. (2018). Optimizing a human papillomavirus type 16 L1-based chimaeric gene for expression in plants. Frontiers in Bioengineering and Biotechnology, 6. https://doi.org/10.3389/fbioe.2018.00101

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